Litcius/Paper detail

Microstructure evolution of 316L stainless steel during solid-state additive friction stir deposition

Hossein Beladi, Ehsan Farabi, Peter Hodgson, Matthew Barnett, Gregory S. Rohrer, Daniel Fabijanic

2021The Philosophical Magazine A Journal of Theoretical Experimental and Applied Physics47 citationsDOIOpen Access PDF

Abstract

Solid-state additive friction stir deposition was employed to three dimensionally print a 316L stainless steel. The microstructure, texture and grain boundary distribution were characterised using five-parameter boundary analysis. The bulk microstructure was exceptionally fine (∼0.7 µm) throughout the thickness of the deposited layers, consisting of equiaxed grains along with sub-grains delineated by high and low angle boundary segments. The misorientation angle distribution of the deposited layers was considerably different from the as-received microstructure, exhibiting a significant reduction in the relative areas of ∑3 annealing twin boundaries due to their distortion by severe plastic deformation. The overall texture also exhibited strong shear components associated with FCC metals, suggesting that the microstructure refinement largely took place through progressive subgrain rotation, known as continuous dynamic recrystallisation. The grain boundary plane distribution revealed significantly lower anisotropy compared with the as-received material, showing two moderate peaks at the (111) and (110) orientations. The migration of high-angle mobile boundaries, which may have been induced by thermal cycle upon subsequent deposition along with the dislocation gradients between adjacent grains, slightly enhanced the intensity of low energy (111) orientations at the expense of (110) high-energy boundaries.

Topics & Concepts

MicrostructureMaterials scienceMisorientationEquiaxed crystalsGrain boundaryComposite materialMetallurgyDeposition (geology)GeologyPaleontologySedimentAdvanced Welding Techniques AnalysisMicrostructure and mechanical propertiesAluminum Alloys Composites Properties